Science Team and Instruments Selected for Mars Surveyor 2001

Two robotic spacecraft scheduled for launch in mid-2001 to orbit and land on Mars will carry a descent camera, a multispectral imager, and a robotic rover capable of traversing tens of miles across the red planet's rocky highlands.

The Mars Surveyor 2001 missions will follow two other robotic Mars missions to be launched in late 1998 and early 1999. All are part of NASA's long-term, systematic exploration of Mars in which two missions are launched to the planet approximately every 26 months.

"The Mars 2001 missions will be a major step forward in advancing our understanding of Mars and preparing to return samples," said Dr. Carl Pilcher, acting director for NASA's Solar System Exploration program. "When we combine the information from the 2001 missions with information from Mars Pathfinder, Mars Global Surveyor, and the missions we will launch to Mars in 1998 and 1999, we will have an excellent understanding of the planet as a whole, and we'll be well on the way toward investigating the most fascinating and scientifically intriguing surface sites in detail."

NASA's Office of Space Science has selected the following investigations for the Mars 2001 Orbiter, due for launch in March of that year, and the Mars 2001 Lander/Rover, due for launch in April:

* The Mars 2001 Thermal Emission Imaging System (THEMIS) will map the mineralogy and morphology of the Martian surface using a high resolution camera and a thermal infrared imaging spectrometer. Dr. Phil Christensen from Arizona State University in Tempe is the principal investigator for THEMIS.

* The Mars 2001 Lander will carry a small, advanced technology rover capable of traveling several tens of miles across the Martian highlands. The rover will be slightly larger than the Pathfinder Sojourner rover and will be designed to go farther (100 km vs. 100 m for Sojourner) and to last longer (1 year vs. 7 days for Sojourner). The rover will carry a payload called Athena, which is an integrated suite of instruments which will conduct in-situ scientific analyses of surface materials. It also will be able to collect and analyze core samples for later return to Earth by a future robotic mission. Dr. Steven Squyres from Cornell University, Ithaca, NY, is the principal investigator for Athena.

* The 2001 Lander also will carry an imager to take pictures ofthe surrounding terrain during the lander's rocket-assisted descent to the surface. The descent imaging camera will provide images of the landing site for geologic analyses, and will aid planning for initial operations and traverses by the Athena rover. Dr. Michael Malin of Malin Space Science Systems Inc. in San Diego, CA, is the team leader for the Descent Imager science team and Dr. Ken Herkenhoff of NASA's Jet Propulsion Laboratory (JPL), Pasadena, CA is a team member.

These investigations were selected from of a total of 39 proposals submitted to NASA in August 1997 in response to Anouncement of Opportunity (AO) -97-OSS-04, "Mars Surveyor Program 2001 Orbiter, Lander, Rover Missions: Science Investigations and Characterization of Environments," issued in June 1997.

The 2001 Orbiter will be the first to use the atmosphere of Mars to slow down and directly capture a spacecraft into orbit in one step, using a technique called aerocapture.

The Orbiter also will carry the Gamma Ray Spectrometer (GRS), the last of the remaining Mars Observer science investigations. The GRS will achieve global mapping of the elemental composition of the surface and the abundance of hydrogen in the shallow subsurface.

The AO also solicited soil, dust, and radiation investigations for the Mars 2001 mission. NASA's Office of Life and Microgravity Sciences and Applications will announce its decisions for these investigations at a later date.

An integrated team consisting of the Jet Propulsion Laboratory and Lockheed Martin Astronautics, Denver, CO, will develop the missions, led by JPL.

Both of the 2001 missions are part of an ongoing NASA series of robotic Mars exploration spacecraft that began with the launches of the Mars Global Surveyor orbiter and the Mars Pathfinder lander in November and December 1996, respectively.